- Author:
- aram148 <a.rampadarath@auckland.ac.nz>
- Date:
- 2021-10-11 21:43:42+13:00
- Desc:
- Create VSM - Exported.cellml
- Permanent Source URI:
- http://models.cellml.org/workspace/6b0/rawfile/507ac7eefb10930c9eb5d5d9a7113ad5203639bd/USMC/DM+Mijaailovich_huxley_copy/HHM1.m
function [X0,T,R,Force,Stiffness,X,N]=HHM1(trange,N,M,xrange,kappa)
%X0,T,R,Force,Stiffness,Phosphorylation,UnattachedMyosin,UnattachedPhosMyosin,AttachedPhosMyosin,AttachedMyosin
%N number of time points
%trange specifies the interval of time steps
%T time grid
%X0 space grid
T=linspace(trange(1),trange(2),N);
%X=linspace(xrange(2),xrange(1),M);
X0=linspace(xrange(1),xrange(2),M);
%dt=timestep
dt=(trange(2)-trange(1))/(N);
% for i=1
% t=trange(1)+1*dt;
% [alpha, ~]=lengthvar(t,f);
% X=X0-alpha;
% [k1 k6]=bindingconst(t);%update k1 and k6 for each T
%
% [gx gpx fpx] = bindingfuncs(X,xrange);
%
% n11=(fpx .* gx * k5 + gx .* gpx * k2 + gpx * k2 * k6 + gx .* k2 * k5) ./ (fpx .* gx * k1 + fpx .* gx * k5 + k5 * fpx * k1 +...
% fpx * k1 * k6 + gpx .* gx * k1 + gx .* gpx * k2 + gpx * k1 * k6 + gpx * k2 * k6 + gx * k1 * k5 + gx * k2 * k5);
%
% n22=(gx .* gpx + gpx * k6 + gx * k5) * k1 ./ (fpx .* gx * k1 + fpx .* gx * k5 + k5 * fpx * k1 + fpx * k1 * k6 + gpx .* gx * k1 + gx .* gpx * k2 + gpx * k1 * k6 + gpx * k2 * k6 + gx * k1 * k5 + gx * k2 * k5);
%
%
% n33=((k6 + gx) .* fpx * k1) ./ (fpx .* gx * k1 + fpx .* gx * k5 + k5 * fpx * k1 + fpx * k1 * k6 + gpx .* gx * k1 + gx .* gpx * k2 + gpx * k1 * k6 + gpx * k2 * k6 + gx * k1 * k5 + gx * k2 * k5);
%
% n44=(k5 * fpx * k1) ./ (fpx .* gx * k1 + fpx .* gx * k5 + k5 * fpx * k1 + fpx * k1 * k6 + gpx .* gx * k1 + gx .* gpx * k2 + gpx * k1 * k6 + gpx * k2 * k6 + gx * k1 * k5 + gx * k2 * k5);
% Constraint eqn substituted for N_am eqn
% n11= gx .* (fpx .* gpx + fpx * k5 + gpx * k2 + k2 * k5) ./ (fpx .* gpx .* gx + fpx .* gpx * k1 + fpx .* gx * k1 + fpx .* gx * k5 + fpx * k1 * k5 + fpx * k1 * k6 + gpx .* gx * k1 +...
% gpx .* gx * k2 + gx * k1 * k5 + gx * k2 * k5);
% n22=gx .* k1 .* (k5 + gpx) ./ (fpx .* gpx .* gx + fpx .* gpx * k1 + fpx .* gx * k1 + fpx .* gx * k5 + fpx * k1 * k5 + fpx * k1 * k6 + gpx .* gx * k1 + gpx .* gx * k2 + gx * k1 * k5 + gx * k2 * k5);
% n33=(k6 + gx) .* fpx * k1 ./ (fpx .* gpx .* gx + fpx .* gpx * k1 + fpx .* gx * k1 + fpx .* gx * k5 + fpx * k1 * k5 + fpx * k1 * k6 + gpx .* gx * k1 + gpx .* gx * k2 + gx * k1 * k5 + gx * k2 * k5);
% n44=fpx .* k1 .* (k5 + gpx) ./ (fpx .* gpx .* gx + fpx .* gpx * k1 + fpx .* gx * k1 + fpx .* gx * k5 + fpx * k1 * k5 + fpx * k1 * k6 + gpx .* gx * k1 + gpx .* gx * k2 + gx * k1 * k5 + gx * k2 * k5);
%
%
% Constraint substituted for the N_amp equation
% n11= gx .* k5 .* (k2 + fpx) ./ (fpx .* gx * k1 + fpx .* gx * k5 + fpx * k1 * k5 + fpx * k1 * k6 + gx * k1 * k5 + gx * k2 * k5);
% n22=gx * k5 * k1 ./ (fpx .* gx * k1 + fpx .* gx * k5 + fpx * k1 * k5 + fpx * k1 * k6 + gx * k1 * k5 + gx * k2 * k5);
% n33=(k6 + gx) .* fpx * k1 ./ (fpx .* gx * k1 + fpx .* gx * k5 + fpx * k1 * k5 + fpx * k1 * k6 + gx * k1 * k5 + gx * k2 * k5);
% n44=fpx * k1 * k5 ./ (fpx .* gx * k1 + fpx .* gx * k5 + fpx * k1 * k5 + fpx * k1 * k6 + gx * k1 * k5 + gx * k2 * k5);
% % Constraint substituted fpr the N_mp equation
% n11= (fpx .* gx * k5 + gpx .* gx * k2 + gpx * k2 * k6 + gx * k2 * k5 + k2 * k5 * k6) ./ (fpx .* gx * k1 + fpx .* gx * k5 + fpx * k1 * k5 + fpx * k1 * k6 + gpx .* gx * k1 + gpx .* gx * k2 + gpx * k1 * k6 + gpx * k2 * k6 +...
% gx * k1 * k5 + gx * k2 * k5 + k1 * k5 * k6 + k2 * k5 * k6);
% n22=(gpx .* gx + gpx * k6 + k5 * gx + k5 * k6) * k1 ./ (fpx .* gx * k1 + fpx .* gx * k5 + fpx * k1 * k5 + fpx * k1 * k6 + gpx .* gx * k1 + gpx .* gx * k2 + gpx * k1 * k6 + gpx * k2 * k6 +...
% gx * k1 * k5 + gx * k2 * k5 + k1 * k5 * k6 + k2 * k5 * k6);
% n33=(k6 + gx) .* fpx * k1 ./ (fpx .* gx * k1 + fpx .* gx * k5 + fpx * k1 * k5 + fpx * k1 * k6 + gpx .* gx * k1 + gpx .* gx * k2 + gpx * k1 * k6 + gpx * k2 * k6 + gx * k1 * k5 + gx * k2 * k5 + k1 * k5 * k6 + k2 * k5 * k6);
% n44=fpx * k1 * k5 ./ (fpx .* gx * k1 + fpx .* gx * k5 + fpx * k1 * k5 + fpx * k1 * k6 + gpx .* gx * k1 + gpx .* gx * k2 + gpx * k1 * k6 + gpx * k2 * k6 + gx * k1 * k5 + gx * k2 * k5 + k1 * k5 * k6 + k2 * k5 * k6);
% Constraint Substituded for the N_m equation
% n11= (fpx .* gpx .* gx + fpx .* gpx * k6 + fpx .* gx * k5 + fpx * k5 * k6 + gpx .* gx * k2 + gpx * k2 * k6 + gx * k2 * k5 + k2 * k5 * k6) ./ (fpx .* gpx .* gx + fpx .* gpx * k6 + fpx .* gx * k1 +...
% fpx .* gx * k5 + fpx * k1 * k5 + fpx * k1 * k6 + fpx * k5 * k6 + gpx .* gx * k1 + gpx .* gx * k2 + gpx * k1 * k6 + gpx * k2 * k6 + gx * k1 * k5 + gx * k2 * k5 + k1 * k5 * k6 + k2 * k5 * k6);
% n22=(gpx .* gx + gpx * k6 + k5 * gx + k5 * k6) * k1 ./ (fpx .* gpx .* gx + fpx .* gpx * k6 + fpx .* gx * k1 + fpx .* gx * k5 + fpx * k1 * k5 + fpx * k1 * k6 + fpx * k5 * k6 +...
% gpx .* gx * k1 + gpx .* gx * k2 + gpx * k1 * k6 + gpx * k2 * k6 + gx * k1 * k5 + gx * k2 * k5 + k1 * k5 * k6 + k2 * k5 * k6);
% n33=(k6 + gx) .* fpx * k1 ./ (fpx .* gpx .* gx + fpx .* gpx * k6 + fpx .* gx * k1 + fpx .* gx * k5 + fpx * k1 * k5 + fpx * k1 * k6 + fpx * k5 * k6 + gpx .* gx * k1 +...
% gpx .* gx * k2 + gpx * k1 * k6 + gpx * k2 * k6 + gx * k1 * k5 + gx * k2 * k5 + k1 * k5 * k6 + k2 * k5 * k6);
% n44=fpx * k1 * k5 ./ (fpx .* gpx .* gx + fpx .* gpx * k6 + fpx .* gx * k1 + fpx .* gx * k5 + fpx * k1 * k5 + fpx * k1 * k6 + fpx * k5 * k6 + gpx .* gx * k1 + gpx .* gx * k2 +...
% gpx * k1 * k6 + gpx * k2 * k6 + gx * k1 * k5 + gx * k2 * k5 + k1 * k5 * k6 + k2 * k5 * k6);
% R = [n11 n22 n33 n44]; % R is a (4M,1) vector
n11=ones(M,1);
n22=zeros(M,1);
n33=zeros(M,1);
n44=zeros(M,1);
R = [n11; n22; n33; n44];
% end
% return
for i=1:N %loop over time to update then run euler
t=0+i*dt;
[F1,~]=funcs1(t,R,X0,M,T);
[F2,~]=funcs1(t+(dt/2),R+((dt/2)*F1),X0,M,T);
[F3,~]=funcs1(t+(dt/2),R+((dt/2)*F2),X0,M,T);
[F4,X]=funcs1(t+dt,R+(dt*F3),X0,M,T);
%main euler loop
Rnew = R + (dt/6)*(F1+(2*F2)+(2*F3)+F4);
R=Rnew;
nM=R(1:M);
nMp=R(M+1:2*M);
nAMp=R((2*M)+1:3*M);
nAM=R((3*M)+1:4*M);
% if (mod(i,500)==0);%&& i>=2000 && i<=2010)
% % %
% % figure(1)
% % plot(X,nAMp)
% % title('nAMp for Mijailovich distribution')
% % drawnow
% % hold on
% % % pause
%
% % figure(2)
% % plot(X,nAM)
% % title('nAM for Mijailovich distribution')
% % drawnow
% % hold on
% %pause
% % % % %
% figure(3)
% plot(X,nAM+nAMp)
% title('nAm+nAMp for Mijailovich')
% drawnow
% hold on
% %pause
UnattachedMyosin(i)=trapz(X0,nM.*(X0'>0) .* (X0'<1));
UnattachedPhosMyosin(i)=trapz(X0,nMp.*(X0'>=0) .* (X0'<=1));
AttachedPhosMyosin(i)=trapz(X0,nAMp.*(X0'>=0) .* (X0'<=1));
AttachedMyosin(i)=trapz(X0,nAM);
Force(i)=kappa*trapz(X,X.'.*(nAMp+nAM));
Stiffness(i)=trapz(X,(nAMp+nAM));
Phosphorylation(i)= UnattachedPhosMyosin(i)+AttachedPhosMyosin(i);
end
